多巴胺通过独特的折叠途径促进α-突触核蛋白聚集成对十二烷基硫酸钠有抗性的可溶性寡聚体。

Dopamine promotes alpha-synuclein aggregation into SDS-resistant soluble oligomers via a distinct folding pathway.

作者信息

Cappai Roberto, Leck Su-Ling, Tew Deborah J, Williamson Nicholas A, Smith David P, Galatis Denise, Sharples Robyn A, Curtain Cyril C, Ali Feda' E, Cherny Robert A, Culvenor Janetta G, Bottomley Stephen P, Masters Colin L, Barnham Kevin J, Hill Andrew F

机构信息

Department of Pathology, The University of Melbourne, Victoria, Australia.

出版信息

FASEB J. 2005 Aug;19(10):1377-9. doi: 10.1096/fj.04-3437fje. Epub 2005 Jun 9.

DOI:10.1096/fj.04-3437fje

PMID:15946991

Abstract

Dopamine (DA) and alpha-synuclein (alpha-SN) are two key molecules associated with Parkinson's disease (PD). We have identified a novel action of DA in the initial phase of alpha-SN aggregation and demonstrate that DA induces alpha-SN to form soluble, SDS-resistant oligomers. The DA:alpha-SN oligomeric species are not amyloidogenic as they do not react with thioflavin T and lack the typical amyloid fibril structures as visualized with electron microscopy. Circular dichroism studies indicate that in the presence of lipid membranes DA interacts with alpha-SN, causing an alteration to the structure of the protein. Furthermore, DA inhibited the formation of iron-induced alpha-SN amyloidogenic aggregates, suggesting that DA acts as a dominant modulator of alpha-SN aggregation. These observations support the paradigm emerging for other neurodegenerative diseases that the toxic species is represented by a soluble oligomer and not the insoluble fibril.

摘要

多巴胺（DA）和α-突触核蛋白（α-SN）是与帕金森病（PD）相关的两个关键分子。我们已经确定了多巴胺在α-突触核蛋白聚集初始阶段的一种新作用，并证明多巴胺诱导α-突触核蛋白形成可溶性、耐十二烷基硫酸钠（SDS）的寡聚体。多巴胺与α-突触核蛋白的寡聚体物种不具有淀粉样变性，因为它们不与硫黄素T反应，并且缺乏电子显微镜下可见的典型淀粉样纤维结构。圆二色性研究表明，在脂质膜存在的情况下，多巴胺与α-突触核蛋白相互作用，导致蛋白质结构发生改变。此外，多巴胺抑制铁诱导的α-突触核蛋白淀粉样变性聚集体的形成，这表明多巴胺作为α-突触核蛋白聚集的主要调节剂发挥作用。这些观察结果支持了其他神经退行性疾病正在出现的一种范式，即有毒物种由可溶性寡聚体而非不溶性纤维代表。

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多巴胺通过独特的折叠途径促进α-突触核蛋白聚集成对十二烷基硫酸钠有抗性的可溶性寡聚体。

Dopamine promotes alpha-synuclein aggregation into SDS-resistant soluble oligomers via a distinct folding pathway.

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